WO2016209109A1

WO2016209109A1 - Security element for an identity document

Info

Publication number: WO2016209109A1
Application number: PCT/RU2016/000258
Authority: WO
Inventors: Андрей Борисович КУРЯТНИКОВ; Георгий Валентинович КОРНИЛОВ; Елена Михайловна ФЕДОРОВА; Елена Самуиловна ТУРКИНА; Анатолий Павлович ГУБАРЕВ; Дмитрий Борисович ЧЕКУНИН; Владимир Александрович ЕЛОХИН; Валерий Николаевич СОКОЛОВ; Игорь Николаевич КОРЖАВИН; Владимир Абович ГОТЛИБ
Original assignee: Федеральное Государственное Унитарное Предприятие "Гознак" (Фгуп "Гознак")
Priority date: 2015-06-26
Filing date: 2016-04-28
Publication date: 2016-12-29
Also published as: RU2599000C1

Abstract

The invention relates to the field of protecting identity documents and bank cards against counterfeit. Proposed is a security element for an identity document, said security element comprising a multi-layered polymeric structure with a screened image that exhibits an optically variable effect. The multi-layered polymeric structure contains two laser-sensitive layers, wherein two or more different personalizing screened images are formed in the upper laser-sensitive layer, and a line screen is formed in the lower laser-sensitive layer, said line screen having a set spatial interval, which is equal to the spatial interval of the personalizing images in the upper layer. The upper and lower laser-sensitive layers are situated at a distance from one another which is determined by the resolution of the images, wherein different personalizing images are visible when the security element is viewed from different angles. The technical result is the formation of a plurality of personalizing images in multi-layered transparent polymeric structures, and the possibility of inscribing said images during a document personalization process.

Description

PROTECTIVE ELEMENT FOR IDENTIFICATION DOCUMENT

Technical field

The invention relates to the field of protection against forgery of identification documents, bank cards, including multilayer polymer structures with security features.

State of the art

Known technical solutions for the protection of plastic documents by manufacturing them in the form of multilayer thin-film structures in which the recording of identifying images and text is performed in different layers and on different surfaces of the polymer layers. Optical effects occur when viewing images and text at different viewing angles and different lighting angles.

For example, in applications US 2005/0035590 A1, 02.17.2005, and

WO 00/00356, 01/06/2000, identification documents are proposed based on multilayer polymeric materials on which various images are applied on different surfaces. Images are applied to the surface of individual layers prior to the formation of a multilayer structure by known printing methods. Such the marking method is inconvenient, and in many cases not applicable. Often, individual marking of the document is required, that is, personalization of the document. In these cases, the application of images on the surface of the layers must be carried out in the course of one cycle of personalization of the finished form of the document.

A similar technical solution is proposed in patent EP 1780682 A1, 10.30.2006. In the indicated technical solution, layers with identifying images are made in the document and in a special identifying device (filter), which, when identifying, must be combined with the surface of the marked document. Such a solution for personalizing documents is extremely inconvenient, both when marking and when checking identification tags.

In the above technical solutions, the basis for the formation of security features is the use of multilayer transparent elements in which rasterized images are formed on spatially separated surfaces of the transparent layers. When viewing such images in reflected or transmitted light, various optical effects may occur due to the moire addition of elements formed in different layers of the images. These can be effects in the form of color changes, motion effects and image changes, stereoscopic images (vario-stereo effects). Instead of images in one of the layers filled with line or dot-pixel rasters, the authors of technical solutions US 2014175786 A1, 06/26/2014, and US 2014151996 A1, 06/05/2014, it is proposed to use lens matrix structures. Such matrix structures can be considered as specific relief, transparent matrix images with focusing matrix elements. In this case, to form optical effects of changing visualized images, the effects of moire alignment (superposition) of lens matrix structures with dot-pixel raster images are used.

In all the technical solutions listed above, the formation of raster structures is not carried out in the process of personalization of document forms. In addition, the use of raster and matrix structures requires high-precision printing and embedding technologies, which at present is not advisable to use when personalizing documents.

The closest analogue to the claimed technical solution is the solution set forth in patent RU 2386544 C1, 04/20/2010. It proposes to use the effect of changing the contrast of the observed portrait images formed in plastic, multilayer identification documents using laser engraving methods to protect personalization images. Engraving It is produced in transparent photosensitive (laser-active) layers located at a distance of about several hundred microns from each other by transparent, non-light-sensitive layers. In this case, portrait images are formed in the form of line rasters with the same spatial periods and variable duty cycle. When viewed from different angles in reflected and / or transmitted light, images recorded in this way in layers separated from each other due to the effects of moire overlay, recorded portrait images are visualized with varying degrees of contrast. Images can vary from negative to positive. Despite the rather high degree of distinguishability of such a protective feature, its disadvantage is the low information capacity - only one image is recorded, which changes the contrast when viewed from different angles of view.

Disclosure of invention

The problem solved by the invention is the formation of several personalization images in multilayer transparent polymer structures, and providing the ability to record these images in the process of personalizing documents.

The problem is solved as follows.

Identification security feature proposed document containing a multilayer polymer structure with a rasterized image having an optically variable effect. According to the invention, the multilayer polymer structure contains two laser-sensitive layers, wherein two or more different rasterized personalization images are formed in the upper laser-sensitive layer, and a linear raster is formed in the lower laser-sensitive layer with a predetermined spatial period equal to the spatial period of the personalization images in the upper layer. The said upper and lower laser-sensitive layers are located at a distance determined by the resolution of the images, and when viewing the security element at different angles, various personalization images are visible.

The problem is also solved by the fact that the proposed identification document containing the security element described above.

The problem is also solved by the fact that the proposed method of personalization of the named identification document, including the formation of various personalization images in laser-sensitive layers by local carbonization.

In particular, personalization images in laser-sensitive layers can be obtained by engraving or embossing in the surface layers of the protective element, or by thermal diffusion copying.

Brief Description of the Drawings

In FIG. 1 shows a cross section of the claimed security element.

The protective element includes an upper protective layer 1, an upper laser-sensitive layer 2, a polymer base 3, a lower laser-sensitive layer 4 and a lower protective layer 5. All layers are transparent to the visible range of the electromagnetic wave spectrum.

In layer 2, at least two different personalized rasterized images are recorded, which can be seen either simultaneously or alternately, first one, then the other. Images can be various portraits of the owner of the document, for example, “in full view” and “in profile”. Also, images can be two photos of the document owner taken from different angles, so that when combining and simultaneously viewing two photos, a visual stereoscopic effect is created.

In the lower laser layer 4, a linear raster is recorded with a predetermined spatial period that coincides with the spatial period of the rasterized images in the upper layer. Images in photosensitive layers are formed by carbonization as a result of exposure to focused laser radiation. When forming personalization images, the laser radiation focuses on the upper layer 2, while forming a line raster - on the lower layer 4.

Given the transparency of the base 3 when using refocusing systems, recording images in the lower layer can be performed both from the side of the upper layer and from the side of the lower layer, which can facilitate the synchronization of the generated images in the upper and lower layers. Experimental studies have shown that for recording halftone rasterized images of photographic quality, the recording resolution should be at least 1300 dpi. In this case, the size of the focus spot for laser radiation should be no more than 20 μm.

The combination of several rasterized images in the upper layer 2 was carried out programmatically by rasterizing photographs with specified raster parameters (for example, stochastic), superimposing a line mask on each rasterized image and combining two (or more) resulting in one. This achieves the creation of halftone rasterized images of photographic quality, combined in one, and visible simultaneously or alternately at different viewing angles.

To increase the number of recordable images, dot-pixel rasterization of images can be used. The formed images in thin transparent layers at this, can be performed by screening elements of various shapes and various types - transparent, translucent, reflective, color, luminescent or embossed.

Industrial applicability

The invention is applicable in the field of protection against forgery of identification documents, bank cards, including multilayer polymer structures with security features.

Claims

CLAIM

1. A security element for an identification document containing a multilayer polymer structure with a rasterized image having an optically variable effect, characterized in that the multilayer polymer structure contains two laser-sensitive layers, while two or more different rasterized personalization images are formed in the upper laser-sensitive layer, and in a linear raster with a specified spatial period equal to the spatial period is formed in the lower laser-sensitive layer for personalization images in the upper layer, the indicated upper and lower laser-sensitive layers are located from each other at a distance determined by the resolution of the images, while when viewing the security element at different angles, various personalization images are visible.

2. An identification document containing the security element described in paragraph 1.

3. A method of personalizing the identification document described in clause 2, including the formation of various personalization images in laser-sensitive layers by local carbonization.

4. The method according to p. 3, characterized in that the personalization image is formed by engraving or embossing in the surface layers of the security element.

5. The method according to p. 3, characterized in that personalization images are formed by thermal diffusion copying.